# Why does my use of operator* fail?

I asked a question earlier yesterday and got some very good answers for sure. Now I am at the end of my project and I am stuck again and can't figure out the answer. I am going to put the most pertinent part of my code here and hope to get some insight from you all. The requirements are: I cannot change the code in my main.cpp, and my header file is supposed to be as simple as possible.

Having that out of the way here is the code: This is my Matrix.h file

``````#ifndef MATRIX_H
#define MATRIX_H
#include <vector>
#include <iostream>
#include <math.h>
#include <complex>
using namespace std;
namespace theMatrix {

template <typename T, size_t ROWS, size_t COLS>
class Matrix {
friend class Matrix;
public:
Matrix(const T & init = T()) : elts(ROWS, vector<T>(COLS, init)) {
};
const vector<T> & operator[](int ROWS) const {
return elts[ROWS];
};

vector<T> & operator[](int ROWS) {
return elts[ROWS];
};
//matrixMult

template<size_t INNER>
Matrix & matrixMult(const Matrix<T, ROWS, INNER> & mat1, const Matrix<T, INNER, COLS> & mat2) {
for (int i = 0; i < ROWS; i++) {
for (int j = 0; j < COLS; j++) {
//elts[i][j] = 0;
for (int k = 0; k < INNER; k++) {
this->elts[i][j] += mat1.elts[i][k] * mat2.elts[k][j];
}
}
}
return *this;
};

//print function

void print(ostream & out) const {
for (int i = 0; i < ROWS; i++) {
for (int j = 0; j < COLS; j++) {
out << elts[i][j];
}
out << "\n";
}
};

private:
vector< vector<T> > elts;
};
//Operator<<

template <typename T, size_t ROWS, size_t COLS>
ostream & operator<<(ostream & out, const Matrix<T, ROWS, COLS> & elts) {
elts.print(out);
return out;
};

//Operator*

template <typename T, size_t ROWS, size_t COLS>
Matrix<T, ROWS, COLS> operator*(const Matrix<T, ROWS, COLS> & lhs, const Matrix<T, ROWS, COLS> & rhs) {
Matrix<T, ROWS, COLS> returnVal;
return returnVal.matrixMult(lhs, rhs);
};
//operator matrixMult

template <typename T, size_t ROWS, size_t INNER, size_t COLS>
inline void matrixMult(const Matrix<T, ROWS, INNER> & mat1, const Matrix<T, INNER, COLS> & mat2, Matrix<T, ROWS, COLS> & mat3) {
mat3 = matrixMult(mat1, mat2);
};
``````

This is my main.cpp:

``````#include <iostream>
#include <fstream>
#include <string>
#include <cstdlib>  // for rand()
#include "Matrix.h"

using namespace std;
using namespace theMatrix;

template <typename T, size_t ROWS, size_t COLS>
void randomize(Matrix<T, ROWS, COLS> & mat)
// Put random values in a Matrix.
// Note:  It must be possible to assign T an int value.
{
for (size_t i = 0; i < ROWS; i++)
for (size_t j = 0; j < COLS; j++)
mat[i][j] = (rand() % 21) - 10; // Random number in range -10,...,+10
}

struct Complex
{
Complex(double re = 0.0, double im = 0.0) : real(re), imag(im) { }
Complex & operator+=(const Complex & rhs)
{
real += rhs.real;
imag += rhs.imag;
return *this;
}
Complex & operator-=(const Complex & rhs)
{
real -= rhs.real;
imag -= rhs.imag;
return *this;
}
Complex & operator*=(const Complex & rhs)
{
real = real * rhs.real - imag * rhs.imag;
imag = real * rhs.imag + imag * rhs.real;
return *this;
}
double real;
double imag;
};
Complex operator+(const Complex & lhs, const Complex & rhs)
{
return Complex(lhs.real + rhs.real, lhs.imag + rhs.imag);
}
Complex operator-(const Complex & lhs, const Complex & rhs)
{
return Complex(lhs.real - rhs.real, lhs.imag - rhs.imag);
}
Complex operator*(const Complex & lhs, const Complex & rhs)
{
return Complex(lhs.real * rhs.real - lhs.imag * rhs.imag, lhs.real * rhs.imag + lhs.imag * rhs.real);
}
ostream & operator<<(ostream & out, const Complex & c)
{
out << "(" << c.real << " + " << c.imag << "i)";
return out;
}

int main()
{
// Matrix multiplication tests:
Matrix<int, 2, 3> m4;
randomize(m4);
Matrix<int, 3, 5> m5;
randomize(m5);
Matrix<int, 2, 5> m6;
Matrix<int, 2, 5> m7;
matrixMult(m4, m5, m7);
out << "m6 == m4 * m5: " << (m6 == m4 * m5) << endl; // here is the first error

// Matrices of Complex:
Matrix<Complex, 2, 8> m11;
randomize(m11);
Complex c(1, -3);
Matrix<Complex, 8, 3> m12;
randomize(m12);
out << "m11 * m12: " << endl << m11 * m12 << endl; // Here is the second error
out.close();
}
``````

I am having only two errors which are conflicting with the complex operator * declaration which I have been trying to solve for several hours and I just can't figure it out. Here are the errors:

``````Error        1        error C2678: binary '*' : no operator found which takes a left-hand operand of type 'nkumath::Matrix<T,ROWS,COLS>' (or there is no acceptable conversion)

Error        2        error C2678: binary '*' : no operator found which takes a left-hand operand of type 'nkumath::Matrix<T,ROWS,COLS>' (or there is no acceptable conversion)
``````

Thanks again for everyone's help on this.

EDIT: Here is the solution! which I voted for. Thanks!!!

``````//Operator*
template <typename T, size_t ROWS, size_t INNER, size_t COLS>
Matrix<T, ROWS, COLS> operator*(const Matrix<T, ROWS, INNER> & lhs, const Matrix<T, INNER, COLS> & rhs) {
Matrix<T, ROWS, COLS> returnVal;
return returnVal.matrixMult(lhs, rhs);
};
``````
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You are missing the overloaded operator for multiplying two matrices. I don't see it posted here. It's looking for Template, Rows, Cols. You just have Complex, Complex for your overloaded * operator function. –  user195488 Apr 6 '11 at 18:56
Homework? Smells like it... –  Billy ONeal Apr 6 '11 at 18:57
@0A0D: There is an overload (`operator*(const Matrix<T, ROWS, COLS> & lhs, const Matrix<T, ROWS, COLS> & rhs)`), it's just not valid in this case. –  Oliver Charlesworth Apr 6 '11 at 19:05

Your templated `operator *` overload does not allow the two input matrices to differ in size.

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This sounds right, the templated `operator*` you have has the same ROWS COLS in the both Matrices. In your main you are multiplying a `Matrix<int, 2, 3>` and a `Matrix<int, 3, 5>` which aren't the same type, so your templated `operator*` doesn't qualify. You need to define some template like `template <typename T, size_t L, size_t I, size_t R> Matrix<T, L, R> operator*(Matrix<T, L, I> const &lhs, Matrix<T, I, R> const &rhs)` –  Bob Fincheimer Apr 6 '11 at 19:09
My friend, thank you for clarifying this. That is exactly what I was doing wrong. This is the fixed code. –  Truesky Apr 6 '11 at 19:14
//Operator* template <typename T, size_t ROWS, size_t INNER, size_t COLS> Matrix<T, ROWS, COLS> operator*(const Matrix<T, ROWS, INNER> & lhs, const Matrix<T, INNER, COLS> & rhs) { Matrix<T, ROWS, COLS> returnVal; return returnVal.matrixMult(lhs, rhs); }; –  Truesky Apr 6 '11 at 19:15

Your problem is that the templated `operator*` requires both sides of the multiplication to be the same Matrix instantiation. `T`, `ROWS` and `COLS` can't be deduced to different values for the type of `lhs` and `rhs` in the same function.

``````template <typename T, size_t ROWS, size_t COLS> Matrix<T, ROWS, COLS> operator*(const Matrix<T, ROWS, COLS> & lhs, const Matrix<T, ROWS, COLS> & rhs);

Matrix<int, 2, 3> m4;
Matrix<int, 3, 5> m5;
m4*m5;
``````

If the compiler deduces `ROWS` and `COLS` as 2 and 3 for the above multiplication, the `rhs` type won't match your templated operator*. And if the compiler deduces `ROWS` as 3 and `COLS` as 5, the `lhs` type won't match.

You'll need to define how multiplication of differently sized Matrix instances should work, and make e.g:

``````template <typename T, size_t ROWS_L, size_t COLS_L, size_t ROWS_R, size_t COLS_R>
Matrix<T, ROWS_L, COLS_L> operator*(const Matrix<T, ROWS_L, COLS_L> & lhs, const Matrix<T, ROWS_R, COLS_R> & rhs);
``````
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